3D Maneuverable Robotic Fish

Project Details & Team

3D Maneuverable Robotic Fish

NSF CPS grant project developing advanced robotic fish with 3D maneuverability using ionic polymer-metal composite (IPMC) actuators. The robotic fish achieves unprecedented agility and efficiency in underwater environments, mimicking natural fish locomotion patterns.

Project Information
  • Status: Active
  • Started: September 2016

Project Team

Zheng Chen
Zheng Chen

Researcher

zchen43@central.uh.edu
Denizcan Koc
Denizcan Koc

Researcher

denizcan.koc1@gmail.com
Umar Masood
Umar Masood

Researcher

mmasood5@CougarNet.UH.EDU

Related Publications

Self-Sensing of Dielectric Elastomer Tubular Actuator with Feedback Control Validation

S. Wang, T. Kaaya, and Z. Chen (2020)

Smart Materials and Structures , Vol. 28 , pp. 075037

Dielectric Elastomer Based Artificial Muscles Output
View Publication
Monitoring of Multi-bolt Connection Looseness Using Entropy-based Active Sensing and Genetic Algorithm-based Least Square Support Vector Machine

F. Wang, Z. Chen, and G. Song (2020)

Mechanical Systems and Signal Processing , Vol. 136 , pp. 106507

Autonomous Underwater Oil Pipeline Inspection Output
View Publication
A Novel Buoyancy Control Device using Reversible PEM Fuel Cells

J. Yazji, H. Zaidi, L. T. Torres, C. Leroy, A. Keow, and Z. Chen (2019)

Proc. of the ASME Dynamic Systems and Control Conference , pp. DSCC2019-9155

Bio-inspired 3D Maneuverable Underwater Robots Output
Back to All Projects